RU145495U1 - GAS SUPPLY DEVICE - Google Patents

Abstract

1. The device is a nozzle for supplying gas, including a housing with a cylindrical cavity, a distributor sleeve with cylindrical channels made to rotate to combine the channel output with holes of various diameters (nozzles) in the disk for directing gas into the designated nozzle, a locking device in the form of a spring-loaded a ball for fixing the distributor sleeve against rotation around the vertical axis, a handle for setting gas parameters at the outlet of the device — gas nozzles located on the axis of rotation of the distribution sleeve a divider and connected to the distributor sleeve by a shaft, a set of nozzles of different diameters for setting parameters of the gas passing through them to the outlet of the nozzle for supplying gas, characterized in that all nozzles are located on a thin disk installed between the housing and the sleeve, a set is added to the cover recesses for approaching the spring-loaded ball for fixing the distributor sleeve in the designated positions by the specified fixing element, a spring is added that presses the distributor sleeve to the housing. 2. A gas nozzle device according to claim 1, characterized in that the disk with nozzles is made of sheet metal. 3. A gas nozzle device according to claim 1 or 2, characterized in that the nozzles are made of solid metal or ceramic and are fixed in the body of the disk, the thickness of the specified disk being approximately equal to the thickness of the nozzles. 4. The gas nozzle device according to claim 1, characterized in that the housing is flanged or flanged for attachment to the gas reducer housing or to the line.

Description

The claimed solution relates to pneumatic systems and, in particular, to devices for automatic control of pressure and gas flow.

Devices for regulating the pressure and flow rate of gas sent for respiration are known in the art.

A device for supplying gas is known (the source is called an “inhaler”), mainly mounted on a pneumatic reducer. The device in operation consists of a gas supply device and a pneumatic reducer and has the name KRI-1. (http://www.pnevmopribor-oz.ru/manual2.html) or another link (http://www.medplant.ru/en/category/produktsiya-drugih-proizvoditelej/dyhatelnaya-i-narkoznaya-apparatura/reduktor -ingalyator-k). See also figure 1.

A disadvantage of the design can be considered some complexity in production, due to the fact that the master device combines several functions.

In a known construction, nozzles are mounted in a master device, which makes the master device more complex and more material intensive. Holes are made in the driver and ruby nozzles are already pressed into them.

In the lateral surface of the master device, a hole for the latch is made in the form of a spring ball. To fix the disk in each position, an additional part is used - a ring with holes.

Because of this, when a defect appears in one of the functions, it is necessary to replace the expensive multifunctional part as a whole. This is also due to the low maintainability of the specified master device - for example, expensive ruby nozzles (parts containing calibrated holes) are made pressed, not removable.

The specified device is selected as a prototype.

The technical result of the claimed design is to increase maintainability, lower cost in operation.

Known devices do not allow to achieve the claimed technical result.

The purpose of the claimed design is also to increase the consumer qualities of the device.

SHORT DESCRIPTION

The claimed device for supplying gas, comprising the following parts and assemblies: a cylindrical body with a cylindrical cavity; a distributor sleeve of a cylindrical shape in size corresponding to a cylindrical cavity in the housing — with channels for directing gas to the designated nozzle, a fixing device in the form of a spring ball, a handle for setting gas parameters at the outlet of the gas supply device located on the axis of rotation of the sleeve — a distributor and connected to the distributor sleeve by a shaft; a cover with a set of recesses for approaching the spring-loaded ball for fixing the distributor sleeve in the designated positions by the specified fixing device; a set of nozzles of different diameters for setting the parameters of the gas passing through them (mainly, flow and pressure) to exit the device for supplying gas; sealing elements; spring pressing sleeve - distributor to the housing. A distinctive feature of the claimed design is that all nozzles are located on a thin disk installed between the housing and the sleeve. Nozzles are located mainly in a circle.

The device in the preferred embodiment in operation is usually used in the form of a device - nozzles for supplying gas connected to the pneumatic reducer of figure 2 or to the line. For this, the housing is made with a flange or flange for fastening to the housing of a gas reducer or gas line through an appropriate adapter. The design of the device for supplying gas is presented in figure 3.

Figure 3 shows a drawing of the proposed gas reducer in section.

DETAILED DESCRIPTION

Accepted designations.

1. Case.

2. The cover.

3. Disk.

3.1 Dyuza.

4. Nipple (outlet fitting).

5. The spring.

6. Handle (rotary).

7. The ball.

8. The spring.

9. The sleeve.

10, 11, 12 O-rings.

21, 22, 23, 24 - Cavities of the device for supplying gas.

The claimed device for supplying gas, comprising the following parts and assemblies: a cylindrical body with a cylindrical cavity; a distributor sleeve of a cylindrical shape in size corresponding to a cylindrical cavity in the housing - with channels for directing gas to the designated nozzle, a fixing device in the form of a spring ball, a handle for setting gas parameters at the outlet of the gas supply device located on the axis of rotation of the sleeve - a distributor and connected to the distributor sleeve by a shaft; a cover with a set of recesses for approaching the spring-loaded ball for fixing the distributor sleeve in the designated positions by the specified fixing device; a set of nozzles of different diameters for setting the parameters of the gas passing through them (mainly, flow and pressure) to exit the device for supplying gas; sealing elements; spring pressing sleeve - distributor to the housing. A distinctive feature of the claimed design is that all nozzles are located on a thin disk installed between the housing and the sleeve. Nozzles are located mainly in a circle. A disc with nozzles can be made of sheet metal.

The nozzles are made in a thin metal disk or made of another material and mounted in a thin disk. Nozzles can be made of solid metal or ceramic and fixed in the body of the disk. If the nozzles are made of another material, then the thickness of the disk is chosen approximately equal to the thickness of the nozzles.

The claimed gas supply device is designed to improve performance, including maintainability, simplify production.

The main objective of the gas supply device is to reduce the gas pressure and flow coming from the reducer to a pressure and flow suitable for human breathing.

The claimed device for supplying gas can be installed as a second stage on gas reducers of various designs (piston, membrane) (see, for example, figure 2). For this, the housing is made with a flange (flange) for fastening to the housing of the gas reducer.

The gas supply device has a chamber 21 in the housing 1, into which gas with an intermediate (set) pressure (3-6 atm) is supplied from the reducer. Then the gas through the channel 22 in the sleeve 9 enters the disk 3, made preferably of a thin sheet. Calibrated holes 23 of small diameter (nozzles) are made around the circumference in the disk, the diameter of each hole corresponds to a certain gas flow rate (for example, 2, 4, 6, 10, etc. l / min). After passing through the hole 22 of the disk 3, the gas enters the annular groove 24 in the housing 1 and from it into the fitting 4. A breathing mask, a pipe, etc. can be connected to the fitting 4. Housing 1 and cover 2 can be mounted on the gear housing in different positions. The position of the fitting (nipple) 4 on the cover 2 (down, up, right, left) is selected based on the convenience in each particular application. The sleeve 9 is rotated around its axis by means of a handle 6, mounted on a common shaft with the sleeve, thereby setting the channel 22 in a position in which its output is combined with holes of different diameters in the disk 3 (nozzles) (nozzles are mainly located around the circumference) .

The sleeve 9 is fixed in the opposite position to the corresponding hole in the disk 3 using a multi-position locking device in the form of a ball 7, spring-loaded with a spring 8. In the cover 2, holes are made for the ball to enter. The spring 5 presses the sleeve 9, thereby compressing the sealing ring 11, which is located in the annular groove and is designed to seal the connection of the sleeve 9 and the disk 3. Sealing at the inlet and outlet of the gas is also provided by the rubber ring gaskets 10 and 11.

Unlike the prototype in the claimed design, calibrated holes (nozzles) in the disk can be located on a larger diameter, which allows to increase the number of holes and, accordingly, increase the set of gas supply options (for example, 2, 4, 6, 8, 10, 12, 15, 20, 25 l / min) and thereby improve the consumer properties of the product.

In the prototype, a disk with nozzles is more material-intensive because it is combined with a master. Holes are made in it, into which ruby nozzles are pressed in.

In the lateral surface there is a hole for the retainer in the form of a spring ball. This reduces the number of nozzles to be placed by at least one.

The counterpart of the prototype retainer is a ring with holes, and in the proposed design, the holes are made directly in the lid.

The known design (prototype) is significantly more complicated and more expensive compared to the claimed.

The claimed technical solution is industrially applicable, since all parts can be manufactured and assembled in an industrial environment.

Claims (4)

1. The device is a nozzle for supplying gas, including housing with a cylindrical cavity, a cylindrical distributor sleeve with channels, made for rotation to combine the channel output with holes of various diameters (nozzles) in the disk for directing gas to the designated nozzle, a locking device in the form of a spring-loaded ball for fixing the distributor sleeve against rotation around a vertical axis, a knob for setting gas parameters at the outlet of the device - nozzles for supplying gas, located on the axis of rotation of the distributor sleeve and connected to the distributor sleeve by a shaft, a set of nozzles of different diameters for setting the parameters of the gas passing through them to exit the nozzle device for supplying gas, characterized in that all nozzles are located on a thin disk installed between the housing and the sleeve, a set of recesses has been added in the lid for approaching the spring-loaded ball for fixing the distributor sleeve in the designated positions by the specified fixing element, a spring has been added, pressing the distributor sleeve to the housing. 2. The nozzle device for supplying gas according to claim 1, characterized in that the disk with nozzles is made of sheet metal. 3. The nozzle device for supplying gas according to claim 1 or 2, characterized in that the nozzles are made of solid metal or ceramic and are fixed in the body of the disk, and the thickness of the specified disk is approximately equal to the thickness of the nozzles. 4. The nozzle device for supplying gas according to claim 1, characterized in that the housing is flanged or flanged for attachment to the housing of the gas reducer or to the line.